DE1197787B - Electromagnetic flasher, especially for flashing light signal systems on motor vehicles - Google Patents

Description

Electromagnetic flasher unit, in particular for flashing light signal systems on motor vehicles The invention relates to a elektromagaetischen flasher particular flashing light signal systems of motor vehicles with a flash contact switching armature, which under the influence of at current .. Flow elongating and provided with a series resistance heating wire and a this counteracting tensile force, preferably a spring, and when the blinker magnet is excited, which is initiated by switching on the respective blinkers, the blinker contacts open in the rest position closes and opens the blinker circuit in a rhythmic sequence and with a device to shorten the heating time of the I. A wire through which its series resistor is short-circuited when the flashers are switched on, but is connected in series with the seat wire during the following flashing pulses. In known flasher devices of this type, a certain time, which is approximately 1 to 1.5 seconds, elapses from the time of switching on until the start of the normal flashing sequence. In the case of the flasher units with the flasher contacts open when switched on, the flasher units only receive power after the response time required to heat up the hot wire. In the case of the flasher units with closed flasher contacts, the flasher devices receive power immediately, but the first flashing pulse is considerably longer than the following pulses in the normal flashing sequence. In another known flasher unit, means are provided to shorten the heating time of the hot wire. An additional switch armature is required for switching the series resistor, which is under the influence of the attraction force of the flasher magnet and a spring force that counteracts this. This spring force must be relatively weak, since the switch armature must open the contact both when the magnet coil is fully loaded and when the current is weakened by the flow of the hot wire. Due to the unstable mounting of the switch armature, the contacts switched by it weld together easily or the switch armature sticks to the magnet, so the pre-resistance is not short-circuited the next time the flashers are switched on. In addition, there is great sensitivity to vibrations.

In contrast, the invention is based on the object of a flasher unit in which the response time is shortened and the duration of the first flashing pulse which is equivalent to the following impulses and which has a low susceptibility to vibrations having, where. the shortening of the heating time of the hot wire without one through the flasher magnet actuated switch armature is reached.

To solve this problem, the invention provides that the switch armature a changeover contact known per se. actuated wind the series resistor in parallel to the P, uhekontakt lies.

This flasher is characterized by its reliable and vibration-proof Mode of action as well as by its great simplicity. By the type of circuit a scorching of the contacts is largely avoided, so that a long service life results. Since the contact wire is not constantly preheated in continuous operation, it ages he only relatively slowly, so that the functionality of the encoder also with prolonged use is guaranteed.

The switching armature, which is insulated from the seat wire, can expediently carry the moving contact part of the normally closed contact. In another embodiment the switch armature can be positively connected to a switch lever and opposite this be isolated, in which case the lever switches the normally closed contact.

In the case of a flasher unit, its flasher contacts when the flasher units are switched on are open, it is advantageously provided that the series connection of a second hot wire with series resistor parallel to the series connection of the first Hot wire with a series resistor lies, this second hot wire over a second Switch armature a second pair of contacts closed when the flashers are switched on holds and the series resistance of the first hot wire parallel to this contact pair lies.

Further features of the invention emerge from the following description three example specified switching arrangements.

1 denotes an electromagnet located in the blinker circuit and 2 denotes a spring-loaded switch armature which is under the influence of the electromagnet 1 on the one hand and that of a hot wire 3 on the other hand. This armature 2 switches the flashing contacts 4 and 5. The circuit leading from a battery 6 to flashing devices 7, which may be arranged in groups, is closed by a switch 8. If necessary, a control lamp 9 can be provided parallel to the flashing devices 7, the circuit of which is controlled by a second spring-loaded switching armature 10 in the same rhythm as that of the flashing devices 7.

In the flasher unit according to FIG. 1, the flasher contacts 4, 5 are open when the flasher is idle, that is, when it is de-energized. In contrast, the switching armature 2 rests with a second contact 11 on a stationary contact 12. This closes a series resistor 13 - k, which is in series with the hot wire 3: When one of the two flashing device groups 7 is switched on by means of the switch 8 , a current flows from ground, flashing devices 7, switch 8, solenoid 1 - via the hot wire 3, the The contact pair 12, .U, the switching armature 2 to the positive pole of the battery 6: Since the series resistor 13 is short-circuited, a strong initial current flows through the hot wire 3, which in a short time, about 0.1 second, preheated and stretched so far that the contact 11 is lifted from the contact 12 and the short circuit of the resistor 13 is canceled. A current, which is lower according to the size of the resistor 13, now flows through the hot wire 3 and the series resistor 13 and expands the wire 3 so far that the switch armature 2 with its contact 4 comes into contact with the contact 5. Now the flashing lights get 7 deg: full power. At the same time, the hot wire 3 is short-circuited with resistor 13 and has cooled down. The pulling force of the magnet 1 delays the tearing off of the switching armature 2 until the force of the cooled wire 3 is strong enough to tear off the switching arm 2 from the magnet 1. After the contact pair 4, 5 has opened, a current immediately flows again through the hot wire 3, which is heated up again and thus stretched until the contact pair 4, 5 comes into contact again. The path of the armature 2 is no longer so great that the pair of contacts 11, 12 is closed. The resistor 13 therefore always remains switched on after the first flashing pulse, and the flashing pulses take place at the set frequency. The pair of contacts 11, 12 is set so that it is opened shortly before the pair of contacts 4, 5 closes, but after the first flashing pulse the contact 11 no longer touches the contact 12. This design of the flasher makes it possible to shorten its response time to about 0.3 to 0.4 seconds.

At the in. F i g. 2 illustrated embodiment of the subject matter of the invention the switch armature 2 is connected to a switch lever 15 insulated, which the two Contacts 11, 12 switches and so short-circuits the series resistor 13.

In Fig. 3 shows another switching option to shorten the response time. In this case, a second switching armature 17, which is under the action of a spring and a hot wire 16, is provided, which switches the pair of contacts 11, 12 and thus short-circuits the resistor 13 of the wire mesh 3. After actuation of the direction switch 8, current flows over .eine of the lamp groups 7, the relay coil 1, the armature 17, the contact pair 11, 12, the hot wire 3 and the armature 2 to the positive pole of the battery 6 Resistor 13 is weakened, the flashing contacts 4, 5 are brought together very quickly. On the other hand, current also flows through the support wire 16 and the series resistor 18 of the same to the positive pole. The resistance of this circuit is such that the armature 17 opens the contacts 11, 12 shortly before the pair of contacts 4, 5 closes or has already opened so far that it is during the flashing pulse while the hot wire 16 is short-circuited and cools down Contacts no longer closes. In the meantime, the switch armature 2 has closed its contacts 4, 5 under the influence of the elongation of the hot wire 3, and the flashing lamps 7 receive full current. While the contact pair 4, 5 is touching the circuits of the two hot wires 3, 16 are short-circuited, so that they cool down and the contact pair 4, 5 is opened again. The hot wire 3 now receives electricity again, but after the first flashing pulse it is reduced by the series resistor 13 so that the hot wire now heats up more slowly in accordance with the desired flashing sequence. The elongation of the hot wire 16 is dimensioned so that when it cools down during a blinking pulse it no longer contracts so far that the contact pair 11, 12 comes into contact. After switching off the switch 8, the flow of current is interrupted for both hot wires 3, 16, and the switching armatures 2, 17 return to their rest position.

Claims (1)

Claims: 1. Electromagnetic flasher unit, in particular for flasher light signaling systems on motor vehicles, with a flasher contact switch armature, which is under the influence of a hot wire which is elongated when current flows through and is provided with a series resistor and a tensile force counteracting this, preferably a spring, and when the flasher unit magnet is excited , which is initiated by switching on the respective flashing devices, closes and opens the flasher circuit in rhythmic sequence via the flashing contacts that are open in the rest position and with a device for shortening the heating time of the hot wire, through which the series resistance of the same short-circuited when switching on the flashing devices, but during the The following flashing pulses are connected in series with the hot wire, characterized in that the armature (2) actuates a known changeover contact (4, 5; 11, 12) and the series resistor (13) is parallel to the break contact (11, 12). z. Flasher unit according to Claim 1, characterized in that the switching armature (2) insulated from the hot wire (3) carries the movable contact part (11) of the break contact (11, 12) (Fig. 1). 3. Flasher unit according to claim 1, characterized in that the switching armature (2) is positively connected to a switching lever (15) and isolated from this and this switching lever (15) switches the normally closed contact (11, 12) (F i g. 2) . 4. Flasher unit according to claim 1, characterized in that the series connection of a second hot wire (16) with a series resistor (18) is parallel to the series connection of the first seat wire (3) with a series resistor (13), this second hot wire (16) via a second Switching armature (17) holds a second pair of contacts (11, 12) closed when the flasher units (7) are switched on and the series resistor (13) of the first hot wire (3) is parallel to this pair of contacts (11, 12) (FIG. 3) . Considered publications: German Patent Nos. 948 492, 859 268; German utility model No. 1722 621; French Patent No. 1115 524; U.S. Patent Nos. 2,282,956, 2,447,037.